Conveyer



Nov. 3, 1925 1,559,772

R. PEALE CONVEYER Filed Jan, l2, 1920 8 Sheets-Sheet l Nov. 1925.

` 1,559,112 R. PEALE CONVFTYBR Fileclwlau's` 12, 1920 8 Sheets-Sheet. 2

Hmm l 1li I 47 4 I w In N1 g 1`:

52 I l 1 l l D (no INV OR ATTO 'EY Nov. 3 ,`1925. y 1,559,772

. R, PEALE CONVEYER Filled JanA l2, 1920 8 Sheets-Sheet 3 Nov. v 3|, 1925.

R. PEALE CONVFYER Filed Jam I'12, 1920 8 Sheets-Sheet4 ATTORNEY Nov. 3, 1925. 1,559,772

R. PEALE CONVEYER @1nd Jan. 12,` 1920 8 Sheets-Sheet` 5 INVENTOR R. PEALE CONVEYER Nov. 3l 1925. 1,559,772

Filpd Jan. 12, 1920 8 sheets-sheet" e z 55 'O' |95 1oz 66 www;

Q BY

Nov. a, 1925. 1,559,172

R. PEALE coNvEYER Find Jam. 1.2, 1920 s sheets-sheet v ATTOR, EY v Patented Nov. 3, i925.

UNITED ASTTES -ra'rani orricn.

RICHARD PEALE, or sr. BENE'DIQT.' PENNSYLVANIA. AssiGNoia- To REMBRANDT REALE, or sr. BENnmcnPif-.Nnsvnvama conviiiviin.l

Application filed January 12, 14920. Serial No. 350,731.

To all whom it may concern: A

Bc it known that I, RICHARD PEALE, a citizen of the. United States, and 'a resident ot' St. Benedict, in 'the county of Cambria.

and State oi Pennsylvaiiimhave invented certain new and useful Improvements in OnveyerS, of which the following is a Ispe-iiiication. f Q y The invention relates to anendless conveyer mechanism, and in certain of litsaspects the invention relates more particularly to a conveyer mechanism particularly adapted for use in coal mining, especially in direct mining work, suclias room work, breakthrough work or long wall work, in relatively thin coal seams or veins.

Objects and advantages of the invention,

will be set forth in part hereinafter, and in part'wil'l beobvious herefroni, the same-being 'attainedand realized by means ot' thev instrumentalities and combinations pointed out in the appended claims.

Thefinvention consists in the novel parts, constructions, arrangements, combinations `and improvementsr herein shown and described.

The accompanying drawings, herein referred to fand constituting a part hereof,-

illustrate one embodiment of the invention, i

and together with the description serve to explain the principles of the invention.

Of the drawiiigst--- Fig. lis a fragmentary elevation of a conveyer 4constructed inl accordance with the invention, `working in a mine rooni, and showing also intransverse section a similar conveyer working in the entry, the first conveyer discharging into the second conveyer, the Aiigure. showing also the drive for the room conveyer;

Fig. 2 is a top'A plan corresponding to Fig. 1;

Fig. 3 is an enlarged detail of two cooperating rooni conveyers, showing one room conveyer iii elevation, said conveyer dis.- charging into a second conveyer, which is 'shown in vertical transverse section;

Fig. 4 is an isometric projection, showing the driving mechanism for the conveyer in greater detail than in the preceding figures;

Fig. 5 is an enlarged fragmentary perspective detail ot one of the cables and ot the means for attaching the conveyer belt or body thereto. which means is also utilized for driving the-belt; I

Fig. 6 is anenlarged perspective fragmentary detail ot`a form of means for join ing two sect-ions of the supporting and propelling cables,I orlike devices for the convegvers Fig. 7

is an isometric perspective of a chain cable for supporting rand propelling y the conveyer, and showing the application of a driving mechanism thereto;

Fig. 8 is an'enlarged fragmentary detail,

Fig. lOvis aii'enlarged fragmentary detail *of onevof the supporting sheaves, shown inL Figs. l1` and 2 and on the right hand side in Fig. 9, and showing one of the supportingY yand propelling cables running on one of the sheaves;

Fig. 11 is a View similar to Fig. 10, bu

showing one of the. conveyer belt ,or body supporting members which are fixed on the cable passing over the sheave;

Fig. 12 is a transverse section, similar to Fig. 9, but showing a different form ofsupporting and guiding means for the supporting and progressing cables,.which support the conveyer body; 1

`a5 partly iii section, showing a form of means.. tor' attaching the conveyer belt or body to the cliaii1`.cable supporting and propelling soI Fig. 13 is an enlarged fragmentary detail of the supporting and guiding means for the cables shown in Fig. 12;

Fig. 14 is a plan of one form of mechanism for carryingthe conveyer around al curve or angle;

Fig. 15 is a vertical transverse section taken substantial-ly' on the line 15-15 of Fig. 14;

. Fig. 16 is a vertical transverse section taken substantially on the line 16--16 of Fig. 14;

Fig. 17 is av vertical transverse section taken substantially on the line 17-1'2'v of Fig. 14,;

Fig/18 is avertical transverse section taken substantially on the line 18-18 of a of conveyer k passing around a curveat Sub-V Fig. 14;.

Fig. 19 is a top plan, similar toy Fig. 14, but showing the conveyer goin about an, oblique curve, that is, one of a out fortylfive degrees;

Fig. 20 is a top plan, showing the conveyer with cable supporting and" guiding means of the kind shown in Figs. 12 andy 13, going about aright angle curve;

Figi4 21 isa top plan of a diEerent form of conveyer passing around a lcurve at a right angle;

Fig. 22 is a of the form of conveyer shown in Fig. 20; Fig., .23 is a top plan of a different form stantially a right angle; i f Fig. 24 is a detail of they sheaves shown .in Fig. 28; and

Fi is a thes eave.

" Referring tothe accompanying drawings,

illustrating by way of example onel embodiment of the invention, my conveyer is shown.

detail of" another form of applied to use vin a coal mine,and particularly to room and entry use in a vein of relatively' small thickness or height. In practice the `great majority of the veins which are worked are from twenty-four to thirty-six inches in height. The problem of transporting the coal 'from 'the numerous and rapidly advancing room faces back to the entry-in such thin veins is a very acute problem, involving considerations of expense, waste of time, and hardship to worklnien, when-they yare directly employed upon such work. Objects of the present invention are to obviate the necessity of requiring Workmen'to travel to and vfro in suoli cramped or restricted space, to avoid the expense and labor of shooting or excavating the top 'or bottom rock in the rooms; and to provide an automatic conveyer which is simple and reliable, possessed ofbut little and rugged mechanism, and having a simple and practically automatic drive; to provide such ka conveyerwhich is rapidly and easily extensible asvthe room faces advance, and

which is easily and quickly taken down `from Aan old room or location and set up in another ora newv location; To provide a conveyer which has a widely elastic load capacity, which will discharge automatically into the -conveying means in the entry, l

or to other conveying means 1in the room, and Awhich is adaptable to the various kinds of mining, such as room work, breakthrough or lcross-cut work, pillar drawing, or long-wall work, as may be required.

In one of its featuresthe invention provides for a pair of supporting and propelling cables running in parallel relation with each other, and supporting the body or load carrying part of the conveyer between fragmentary perspective view l them, the cables in turn running in or upon -suitable guiding and supporting devices The cables, whether of rope, chain or other suitable form, are endless 'and preferably are `returned in an idle reach beneath the loaded reach or path of the conveyer.

The devicesor means by which the conveyer body or load-carrying part is attached inserting lengths of cable and extending the conveyer body correspondingly, maintaining the spaced relation between the attaching devices between the cables and conveyer body, where 'these are employed for driving the conveyer mechanism. Such cable lengths can be standardized so as to fit in very exactly and in the manner desired. lVhere the conveyer is used in. coal mining, the roof props are usually utilized as supports for the cable sheaves or other guiding means, and these props can be set to fit exactly with the extensions of the conveyer.

The conveyer mechanism in. connection with its simple and sturdy structure is very compact, and lends itself not onlyto easy and gradual extensibility, butalso to one conveyer emptying into another. Thismay -be'at the juncture of a room `with its entry or heading, or it may be where the con veyer from a break-through empties into the conveyer operating fromy the-room face back to the entry or heading. The automatically operating conveyers, and the automatic cooperation of the conveyers, profvide an entirely flexible and adequate coal llO or other material delivery or transporting means whereby any one part of the workings can get rid of dislodged coal without Waiting upon or interfering with any other part. lems of car pushing or hauling in the low rooms and travel of employees to and fro in connection therewith in such restricted space are avoided.

ln certain cases it may be either 'desirable The expensive and vexat-ious prob-f or necessaryfor the conveyer to turn an angle, and in accordance with one feature of the invention means are provided for running the conveyer around an angle or corner, as` will be later described in, detail.

The various features or aspects of the linvention thus briefl outlined may be lutilized together, or cause to cooperate, or'some or any of them may be employed Without the others. Additional features ofthe invento other uses.

Cil

tion, also, will be set forth in connection with the detailed description of the present illus-- trated embodiment.

yAs, =.stated, the invention is especially adaptable in mangI respects to meet the -requirements and problems of mining, especially in thin veins or seams, and as embodied herein it has been shown and de-A scribed as,i applied to such mining conditions, but the invention` is also applicable -Referring in detail tothe embodied form l ofthe invention, illustrated by way of example in the accompanying drawings, a conveyer 1 isprovided, equipped on either sidey with supporting and propelling cables or'the like 2 and 3. The conveyer body is attached thereto by suitable means which means, as already stated, according to one feature' of the invention, also cooperate with the driving means to propel the conveyer. Suitable guiding and supporting devicesare likewise provided for the cables 2 and 3, which cables carry the loaded and emptyreaches of the conveyer and direct it along its path. These cable supporting and guiding devices cooperate also with the 1 means for attaching the cable body tothe' cables, which latter will be first described.

vAs embodied in the present invention, the' -body 4 of the cf,..nveyer ispreferably formed in sheets, which arev fastened together at Vtheir adjoining or overlapping ends which lie transversely to the pathf travel of the conveyer. I e supported by members v`5 at either side, which are fixed to the supporting and propelling cables 2 and 3. The members 5 have fixedV or. attached thereto plates 6 and 7 between which the sheets 4 ofthe conveyer body are clamped and held 'by suitable means, such as the rivets 8. f j v wThe supporting and guiding means for the supporting and progressing cables' 2 andl 3, shown in Figs. 1, 2, 3, 9, 10 and 11 comprise sheaves mounted on mine props, and arc adapted to cooperate both with the cables and with the members 5. As embodied in the present invention, the sheaves 10 are rotatably mounted in two parallel series and in alinement in each series along the path of the conveyer. The roof props 1l and 12, arranged in parallel rows in the room are utilized for this purpose.

the bolts being fastened into positionby nuts 14. The bolts are each provided with` a.

shouldered head 15, to hold the sheave, and a friction plate 16 is linterposed between the sheave and the prop, which plate isvsecured in a suitable manner, as by screws or spikes 17.

The intermediate stretches of the cable will run between the flanges of the sheaves 10, as shown in Fig. 10, and the supporting of the conve er.`

The body 4 of the,conveyerl is` The sheaves 1() are shown mounted on bolts 13,

members fare beveled `fore and aft, as shown in Fig. 5., so that when they engage with the sheave they will gradually ride up thereon,y thebody o'if the support 5 resting within the :danges of the she/ave, and the' projecting portion 7 resting upon the edge or periphery of the inner tlange of the sheave.- This embodied form of sup ort is reversible, that is, it ywillfengage an the sheave recisel in the same manner on the forwar trave ing, upper, loaded reach` of the conveyer as upon the bottom and rearwardy traveling `returning idle reach 'The embo ied form of driving means, as

cooperate with already indicated, cooperates with the conveyer supporting members 5 'to propel the cables 2 and 3, and therewith theconveyer body. Inr the illustrated embodiment, there is provided, at either side, sprocket chains 20 and'2l running over idler sprocket wheels 22 Land`23, which wheels are xed'on the Shaft '24. Chains 20A and 21 also run over driven sprocket wheels 25 and l26, which wheels are xed on a shaft 27, journaled in' bearings 28. Fixed on shaft 27 is a ear wheel 1.30, meshing ldirectly or 'indirect y :with a -,piniofny31, which pinion is fixed on the shaft 33 o a motor 32. Fixed on the sprocket chains 20 and 21, respectlvely, are a series of -spaced 'lugs 34 and 35,- whieh are spaced (apart .to engage'behind the plates 6 and 7 of the conveyer supporting and driving members 5, as will be seen from Fig. 4, and thus drive or ropel theconveyer. This providesa simp e, direct and ruggedfdrive, which engages with the conveyer mechanism both `on the loaded forward reach and the return idle reach, and also providesthe turning mechanism for the conveyer, as the ca" [the cables 2 and 3 are provided, which may be inserted orclarnped into "the cables uin operation, and in Fig. v6 ofthejdrawings such' a clamp is shown. The cable ends are,

provided respectively with sockets 40 and 41, with a connecting link 42. The links 42 may be opened and a cable length very vquickly and easily inserted.

The sheets 4 ofthe conveyer may be fastened together in any suitable manner, as by stitching, stapling or in other convenient to the conveyer herein previously described as applied to the rooms.

Each room conveyer will discharge' into the entry conveyer, independently of the other room conveyers, and thus an automatic, flexible and adequate system of transportation, wherein each room is independent of every other, is provided, the coal being moved at any time from the face of each room. to the entry and through the entry to a suitable place of discharge.

`There is no blasting or excavating of tie top or bottom rock in Vthe rooms, and there is no traveling to and fro of either laborers or cars in the cramped space and low height within the room.I In Fig. 2 3 is shovmfan il-f lustration of two conveyers cooperating in a room or other locationin a relatively thm seam, 'Where neither. the topnor bottom is blasted. The conveyers are running atright angles to each otherv or approximately Uso, and are located as they would be .for room or for brealrtl'irough or cross-cut work. The conveyer shown in elevation in Fig; 3 may be regarded as conveying coal from a breakthrough and delivering it tothel conveyer shown in Fig. 3 in cross-section, which. may be regarded as the room conveyer, andl for purposes of explanation may be identified with the conveyer shown in elevation in Fig. 1.` The coal would thus be conveyed auto-= matically 4from the cross-cut or break through, Aand also from the room face, and delivered to the entry conveyer, and carried thereby to any desired point of discharge.

In Fig. 7 of the drawings .thereis yshown a diii'erentform ofthe supporting and propelling cables, corresponding to the cables 2 and In the exemplilication of Fig. 7,

the cables are shown as s rocket chains 44 and 45. The sprocket chains 44 and 45 run over sprocket Wheels 46 and 47 fixed upon ashaft 48. n. In this case the wheels 46 `and 47 serve as supports for the cables 44 and 45,

. sei-ving alsof-to reverse the travel thereof from the loaded and-forward reach to the idle return reach. and" also serving `as the driving means. driving by direct engagement with thecable. 'Fixed to shaft 48 is a gear wheel 49, which meshes, eitherl directly.

or indirectly, witlrthe pinion 50, which i pinion is fixed on the shaft 51 of a` motor 52.` The means for fastening the conveyer body y4 in this form to the cables does not necessarily have the additional function of cooperating with the conveyer driving means, and is therefore shown as simply a supporting device. As embodied in the present invention, it comprises a bent or .angled plate 54, to which the body 4 of the conveyer is attached by bolts `or rivets or lother fasteningmeans 55, 'plates 56 cooperating 'to firmly clamp and hold the conveyer body. The bent portion 57 of plate 54 rests against the `side of the chain or cable 44, and is fastened thereto by bolts or rivets 58.

lIn Figs.12 and 13 a different formof guiding and supporting means for lthe cables 2 and 3 is provided. In this 'form of the device a pipe or conduit isa'rranged 1ongitudinally of and at either side of the conveyer, and these conduits restrespectively upon suitable supports, such as brackets 66.

The brackets 66 are shown riveted to plates 6.7 fastened to the props 11 and 12 by suitable means, snch as bolts 68'. The cable supporting Idevices 70 -are fixed to ythe cables. `2 and 3, and run within the respective con duits 65.

The devices 70 are preferably of somewhat round orspheroidal shape to avoid yexcessive friction or binding or jamming of The devlces 70- the devices in the conduit. lare provided respectively with an extension 7l, projecting through a slot 72, formed longitudinally in therconduits 65, the extensions, 71 and the slots 72,th1ough which they project from within the conduit, being located vand disposed so that the pull' of the 'loaded conveyer is such or is 1n such direction that there is nofrictional engagement between the extensions 71 and the edges vof the slots 72, as will best appear from Fig. 13. i

In many locations, where it is desired to convey the coal or other loose material along a curved.'I or angular or other non# straight path, the construction shown in Figs. 1, 2, and 3 may be employed. In accordance with certain features of the invention. however, I provide for curving or turning a single conveyer. In Figs. 14 to 19, inclusive the form of conveyer shown in Figs. 1, 2, 9, 10 and 11 is applied to going around a right angle curveI in Fig. 14 and half a right angle curve in Fig. 19. the intervening figures 1 being.l cross-section views applied to Fig. 14, a's described in the brief description ofthe drawings.

In Fig. 14 and also lin. Fig. 19, the cables 2 and 3 are shown arranged lalong substantially equal paths as to length in passing around the curve or turn, which curve may be of greater or less magnitude. There is thus `very little cross-hauling or diagonal displacement or disarrangement between the cables in going around the turn. It will be recalled that the driving mechanisnris especially designed and operated to give precisely the same speed' to each of the cables 2 and 3, and by making the path of each lill) cable about the turn approximately of equal length -to the other, the temporary .disturb As illusti ted', the cables 2 and 3 are gradually brought almostl to an identical path, and are supported and guided and: kept in their pathy by a series 'of cooperating and opposing horizontally disposed sheaves. Referringto Fig. 14 a plan view, partly diagrammatiqrof a vsuitable arrangement of sheaves 'is shown.

In Fig. 15 the cables 2 and 3 `are shown one above the other, running against two horizontally disposed `sheaves 76 andy 77` respectively, siipported on a'shaft 78, car riedv by cross-beam 79, which is boltedto props or vertical supports80 and 81. The fianges ofthe sheaves act'to verticallyvsupport the cables, as will be clear from the drawing. The props 80 and 81 are shown with their bottoms nested in seats 83 and 84! in a plate 82. The props are shown provided with' jack screws 85 and 86 to tighten them in position between the mine ioor and roof. When the cables 2 and 43 are in'the position shown and described the conveyor is pocketed as shown in Fig. 15, but its carrying capacity is unimpaired for practicalr purposes. It however requires a greater, verticalspace for its 'free running.

As embodied andv illustrated it is permitted to run free, and the idle or return reach of the co veyer is correspondinglydepressed. T e cables 2 and 3 of the idle re-` turn reach of the conveyer run in sheaves i 87 and 88 respectively-carried .upona verti- 1 cally disposed shaft 89, whichis supported on a crossibeam 96, fastened to theprops 80 and ,81.1 Where the vertical space is small the idle reach of the conveyer body 4 may sweep along the plate 82 without damage, although if desired, the bottom could be excavated to permit it to hang freely.

In Fig. l16 certain of, the cooperating. sheaves are shown. ,Cooperating with thel` cables 2 and 3, respectively, of the top or loaded reach of the conveyer, are horizontally disposed sheaves 90 and 91, mounted on a shaft 92, which is supported by beam or plate 79. The flanges of the sheaves act to support the cables vertically while the bodies of the sheaves direct the paths or directions of the cables, generally similarly to the mechanism of Fig. 15, already de scribed. The cables 2 and 3 of the idle or bottom reach of the conveyor engage with horizontally disposed sheaves 93 and 94, re-

spectively which are journaled ona shaft 95, l

supported in plateor beam 96.

In Fig. 17 the cables 2 and 3 are diver fingagain and opening out the conveyer. Here the horizontally disposed sheaves 99 and 100 cooperate respectively with the vtvvo cables of the 'upper reach of the conveyer. These sheaves are journaled, respec tively, on shafts 101I and 102, which are snpported in arplate 103, carried by side props 80 and81. In Fig. 17 the cables 2 and 3 of the lower reach of the conveyer run, respec-.

tively, insim'ilar sheaves 104 and' 105, journalled respectively on'shafts 106 and`107,`

carried by the` cross plate or beam 108.

In Fig. 18 the cables 2 and 3 are represented as nearly back intheir normal or parallelpositionl withrespect to each other. The i sheavesl at the left are vshown vertically disposed, the same as in Figs.3 andf9. Qn the l.right hand side in Fig, 18 sheaves l10n-nd 111 are shown somewhat inclined from the vertical to guide cable 3 and `support it` just before it assumes its full parallel' osition. 'f

In Fig. 20 is shown a plan o thefform of', cable guidingv and supporting device. Vshown in Figs.` -12and 13 going around'a curve. In this arrangement, the inner and therefore shorter conduit .on the .curve is curved rnwardlyand outwardly to malzeit of equal length with the outer conduitl 65.

'and supportedin suitable manner, as upon 'thersheavesgld The conveyer body` in this Case consists of a lurality of separate but llapping transverse y disposed plates 115 of metalor other suitable material. The plates 115" are attached to cable 2 preferably by an extension 116 of theplate which is turned aroundy and fastened tothe `cable A simi# lar extensionll? is `turned -around cable .3.,

but .the `cable 3 and. extension'll are .free` v to move longitudinally with respect to each other, while plate 115 is supported both against the vertical load vand lateral displacement. Plates 115 are preferably made wid- .r er at one side than the other when the conaround a ninety degree curve with straight stretches of the cable at either side. The supporting extensions or clips 117 slide on the cableA 3 and the over-lap ing of the plates will maintain the liody of the conveyer continuous in passing the curve. As the conveyor straightens out again after passing the curve, the supporting clips or extensions 117 will slide on cable 3 to adjust the plates to the change in position of the conveyer, the lapping of theplates again taking care of the changes in position.

In Fig. 23 isl shown a -plan view of the form of conveyer shown in Figs. 1 to 4 passing around a ninety degree curve. In this instance the outside cable 3 is maintained :practically along the full arc of the curve. The sheaves 120 as shown yin Fig.

24 are designedand disposed to hold and guide the cable to its proper course, the re` sistance being mainly against/the radial pull` of the cable. Sheaves 120 are shown 'supported von a plate 121 carriedy by the posts or supports 81.

l'In thiscase also, the ,cable 2 is caused'to vtravel a long or extended path along the inside o'f the convever to compensate for the difference 1n length of the arcs ot cables 2 and 3, .owingftogthe shortcrradius of the4 former. As yembodied here. al sheave 120 or'pair of sheaves123 and 121 press the cable 2 lfrom the inside, that is from the conveyer side, .as shown at ain Fig. 23. -A

y 'succeeding sheave 120 or pair ot cooperating sheave 124 by, a spring 126. vthus ;,will ride up to pass thel supporting clips but-thereafterwill snap down and sheaves 123 and 124 pressthel` cable 2 inwardlytoward the conveyer, as shown at 'b in Fig. 23, and so in alternation about the curve. lThe sheaves are 'supported on a wplate 122. .v

In Fig. 25 sheave 123 is shown loose on its shaft 125, and springpressed toward revent cable 2l lfrom springing out of the ite ofthe sheaves. l

From all the foregoing it will be understood that a conveyer mechanism has beenl rovlded, reahzlng and embodying `the ob?I Jects and advantages herein set yforth, together withk other objects and advantages. It will be understood also that changes may be made from the details of construction herein shown and .described within the scopel of the accompanyingclaims, without de art-- ing from the principles 'of the invention and without sacrificing; its chief advantages.

. 1. An endless conveyer-mechanism including in combination two parallel rows ott' sheaves, two other parallel rows of sheaves in alinement thereover, endless cables which i may be varied in lengthrunning infime direction on one pair of 'rows of sheaves and in the other direction `on the'lother pair of; rows of sheaves, an endless conveyer body which may be varied -in length `and'. means for: attaching the conveyerbody' to the endless cables. a Y, I Y n 2. A11 endless conveyer mechanism' including in ycombination/two parallel' rows o sheaves, two other parallel rows of sheaves in alinement thereover, endless cables which may be varied in length' running in one ydirection on onepair of rows of sheaves and in the other direction onA the other pair of rows of sheaves, an endless conveyer body which may bev varied in. length :and means regularly spaced apart along the cables and conveyer body for attaching the conveyer body to the endless cables.

3. An endless conveyer. mechanism including in combination two parallel rows of Sheave 125i i. the cha1ns engagmg sheaves, two other parallel rows of sheaves in alinement thereover, endless cableswhich may be varied in length running in one direction on one pair of rows of sheaves and in. the other direction on the other pair of rows of sheaves, an endless conveyer body which may be varied in lengthand means regularlyspaced apartalong the cables and conveyer body for' attaching the conveyer body to the endless cables. and means driving lthe conveyer by engaging wlth said attaching means.

el. An endless conveyer mechanismA includ-` i ing in. combination two `parallelrows of sheaves, two other parallel rows of sheaves ,thereoveig endless cables l.running in one di` iectionon one pair ot rows of sheavesand `in the other direction onjthe other pair of yrows of sheaves, 'an endless conveyer body? aud means regularly spaced apart along the.

cables and conveyer ,body for attaching the couveyer body tothe endless cables and two endless' sprocket chains, one at either side ot the conveyer at one end `of= its path, they .cables resting on said chains and means on' to drive the cohveyer'.

5. An endless conveyer mechanism including in combination two parallel rows of sheaves, two cables, -each running on one the chains engaging said attaching means row of sheaves, a conveyer body, and a plurality of attaching devices joining -the conveyer body-and cables and running over the sheaves and two endless sprocket chains, one

'at either sideof the conveyer at oneend of itsjpath, the cables resting on said 'chains and means on the chains engaging said attaching'means to .drive the oo nveyer.

6. ?An endless conveycr. mechanism includ'- ing in combination two parallel rows ol sheaves, two cables, each running on one row of sheaves, a conveyer body, and a plurality of regularly spaced apart attaching devices joining the conveyer body and cables and running over the sheaves and two endless 'sprocket chains, one at either side of the conveyer at one end of its path, the cables fresting on said chains and means on the chains engaging' said attaching means to drive the conveyer.

veyer body therebetween, regularly spaced' apartmeans attaching the conveyer 'body to both cables, and two endless sprocket chains, one at either side ot the conveyer at one cud of itspath, the cables resting on said chains "and means on the chains engag# ing lsaid attaching means to drivexthe conveyer.

' 9. A conveyer mechanism disposed about a horizontal curve, and-.including in combination a conveyei body, two cables, one at each side of the conveyer body, means for suspending the conveyerbodyfrom said ca-l bles, and means for taking up the length of the inside cable in the curve. j

10. A conveyer mechanism disposed about a horizontal curve, and including in combination a conveyer body, two cables, one atv each side of the conveyer body, means 'fon suspending the conveyer body from said cables, and means equalizing the length of the two vcables in the curve.

11. A conveyer mechanism disposed about ahorizontal curve and including in combination a conveyer body, two cables, one at each side of the conveyer body, means for suspending vthe conveyer body from said cables, and ymeans including a plurality ot sheaves equalizing the length of the two cables in the curve.

1'2. A conveyer mechanism disposed about a horizontal curve and including in combination a conveyer body, two cables, one at each side of the eonveyer body, means for suspending the conveyer body from said caf Y bles, and means including, aiplurality of horizontally disposed sheaves equalizing the length of the two cables in the curve.

13. A conveyer mechanism disposed aboutv a horizontal curve and'including in combi-` nation a conveyer body, two cables, one at` each side of lthe .conveyer body, means; for suspending the conveyer bodyyfrom said cables, and ymeans includinga plurality of sheaves acting on both cables equalizing the length et the two cables inthe curve.

14. A conveyer mechanism disposed about a horizontal' curve and including in combination a conveyer body, two cables, one at each side of the conveyer body, means for i suspending the conveyer body from said ca,- bles, and means including a. plurality of horizontally disposed sheaves acting on both cables equalizing the length of the two cables in the curve.

15. An endless ccnveyer mechanism including in combination a pair of parallel horizontally disposed longitudinally slotted conduits, a. pair of cables running in the conduits., a conveyer'body and a plurality of attaching devices extending through said slots and connecting the conveyer body and the cables.

16. An endless conveyer mechanism including in combination a pair of parallel horizontally disposed longitudinally slotted conduits, a pair of cables running in the conduits, a lconveyer body and ya plurality of attaching devices extending through said slots and connecting the conveyer body and the cables, said slots and attaching devices being disposed in the lino oi pull ot the loaded conveyer.

17. An endless conveyor mechanism including in combination a pair of parallel endlesscables lone at either side, supports forthe cables on whichthey are 'tree to run,

-and a conveyer body "therebetween .consist.

ing of a plurality ot sheets joined longitudinally to each other and attached to the cables, the cables having ends adapted to take in'sertble extensions. Y y

18. An endless conveyer mechanism including in .combination a. pairof parallel' endless cables one at either side andy a conveyer body therebetween consisting ofjoinable sections. severally attached to the ca' bles, the cables having ends adapted to take l insertible extensions, means dior supporting and guiding the cables, and means for 'driving the cables.

cluding. in combination pair of parallel endless cables'one at either side and a conveyer body therebetween, devicesftixed to the cables and conveyer bodyattaching them togcther, the cables having their ends'. adapted to take insertible extensions, means for sup porting and guiding the cables, and driving means engaging with said attaching devices and supporting the ycables-at their reversiyng point at onel end of their path of y travel. i

H20. An endless conveyer mechanism in-` cluding in .combination a' pairv of parallel endless cables .one'at eitherside and a conveyer body *therebetweem consisting of a plurality. of `sheets.joined longitudinally to each other and devices fixed to the cables and conveye'r body attaching them together, vthe cables having ltheir ends adapted to take rinsertible extensions," andineans for supporting and guiding?thev cables, and driving means engaging with said attaching Adevices and supporting the cables for any extended distance at their reversing-point at one end of their path of travel. A.

21. An endless conveyer' mechanism including in combination two parallel rows of sheaves, cables running' over the sheaves, a

"upon the inner flanges ofthe sheaves.

f. 9. An endless conveyer. mechanism in-y 23.v Aril endless 'convey-er mechanism liii-v cludlng? m combination two parallel rows of sheaves,` cablesdrunmngvover the sheaves, a

conveyer bodyya plurality of attaching dey 'vices for 'supportiiig theconveyer body lfrom the cables, theattaching devices at the cable 'ends thereobeing shaped and si'ze'd att'heir forward, ends to .gradually ride up Qn the sheaves. l j

24; An endless conveyeifmechanism inf sheaves; 'cables runiilg 'over' the sheavesl` a conveyer body, a plurality of attachingde-j vices orsupportingthe conveyr body from sheaves.

sheaves and-being sized and shaped at their i sides to fit snugly within the sheave flanges.

25. endless conveyer mechanism including in combination two parallel rows of sheaves, cables running over the sheaves5 a' conveyerjbody, a plurality of attaching devices' for supporting the conveyer body from the'cables, the attaching devices at the cable ends thereof being'shaped and sized at their forward endsto gradually ride up on the Asheaves and'being siziedand shaped at their sides to'fit ysnugly within the sheave flanges and'torest uponjVt-he-inner flanges of the En testimony avvliereofff5 lli-have signed my name to this specification. f y i f 'RICHARD PEAL. 

